Waste Management description
A technical strategy has been pursued to develop and commercialise a portfolio of waste to energy technologies and plant designs. We recognise our market sector demands considerable detail and proof of operational performance. In addition safety and fitness for purpose tests are imposed. To achieve the necessary standards considerable work has been done on reaching detailed design stage and certification of a carefully-selected collection of plant designs. The designs chosen provide flexibility and bespoke models to suit various industrial requirements, waste feedstock and locations.
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Chemical-free waste water purification
EffluClean Max is a water sanitiser specifically designed to treat effluent from waste water treatment plants. Its unique formula ensures that EffluClean-treated effluent can be safely and ethically run off into rivers, lakes and seas.
Unlike other effluent treatment products, EffluClean Max is 100% free of chemicals such as chlorine and bromines, instead harnessing the power of ionic particles to kill bacteria and algae. This process produces water that is ideal for irrigating crops.
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British company Ultra Green Group have combined new waste conversion technology with a lease hire model to create affordable waste to electricity units.
The first application is a joint venture with Power Station operator A and G Energia in Brazil where the two companies will site units throughout the country.
Designed in Britain by Ultra Green Engineers and Researchers the units are the vanguard of a series of waste solutions the company says it will roll out globally for remote areas, towns, cities new build towns, hospitals and power stations.
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Turning ship sludge into a valuable commodity
Designed specifically for the shipping industry, Ultra Green Sludge Conditioner can help maritime operators reclaim the expense of dealing with tank sludge.
By extracting the oil from sludge build-up in the ballast tanks, Sludge Conditioner will turn a previously worthless byproduct into a valuable commodity which most disposal companies will pay for to remove from a ship.
This product is used by shipping companies world wide, including Stena Sealink, P&O Ferries, North Sea Ferries and Brittany Ferries.
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An autoclave processes waste with the aid of steam, rendering it sterile while reducing its mass volume by up to 60% of the original mass.
This process is also an efficient method of seperation of unsorted waste to aid recycling.
The Ultra Green autoclave system is powered by our waste pyrolysis units. Traditionally, autoclave systems consume significant quantities of energy to power them, and leave residue which has to be disposed of - often to landfill.
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Odour Eliminator is an industrial strength odour and bacteria killer that can be used in many different applications, including:
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Pyrolysis is the cornerstone of Ultra Green’s waste to energy capability, providing us with a valuable tool to allow our clients to regain value from their waste in the form of electricity and heat.
Pyrolysis is a technology whereby material is heated in the absence of oxygen to produce a useful syngas consisting of methane, hydrogen and carbon monoxide. As the material is heated in the absence of oxygen, traditional contaminants such as Nitrogen Dioxides, Sulphur Dioxides and dioxins are not produced as the required oxygen molecules are not available.
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Anaerobic Digestion or AD, is a series of processes whereby microorganisms are used to breakdown organic substances into usable products in a oxygen free environment. Traditionally, AD is carried out on ’wet’ waste such as pig slurry or sewage. It produces useful products such as methane gas which is then used in an engine or turbine to produce electricity. ‘Waste’ heat is recovered from the exhaust of the engine / turbine and used to heat the process as AD works best in a warm environment.
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Using a combination of specially selected bacteria and a finely tuned multi-stage process, the Biosmart Digester turns raw sewage into nutrient filled water that is pure enough to use on crops. This process relieves the pressure on local water reserves, and cuts the need for chemical fertilisers.
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Modern sewage plants are normally associated with intricate processes and complicated technology that require skilled labour and equipment. The costs involved in this type of operation can be expensive, especially in remote locations or in areas that cannot afford to provide new outfall sewage pipes to connect communities to the existing waste water treatment plants.
